Measurement method of non-connected state user-side device, measurement apparatus of non-connected state user-side device and user-side device

ABSTRACT

A measurement method of a non-connected state user-side device, a measurement method of a non-connected state user-side device and a user-side device are provided. The method includes: acquiring, by the user-side device, non-connected state measurement configuration information; performing, by the user-side device, a non-connected state measurement according to the non-connected state measurement configuration information. According to the present disclosure, based on the non-connected state measurement configuration information, the user-side device may help the network-side device to select a suitable user-side device to perform the non-connected state measurement, thereby achieving the measurement of the non-connected state user-side device. In addition, the non-connected state measurement configuration information may include inter-frequency measurement configuration information, thereby achieving an inter-frequency measurement and saving resources of the user-side device during the measurement.

CROSS REFERENCE OF RELATED APPLICATIONS

This application is a continuation application of U.S. patentapplication Ser. No. 16/765,048 filed on May 18, 2020, which is the U.S.national phase of PCT Application PCT/CN2018/109684 filed on Oct. 10,2018, which claims priority to Chinese Patent Application No.201711139513.0 filed on Nov. 16, 2017, which are incorporated herein byreference in their entireties.

TECHNICAL FIELD

The present disclosure relates to the field of communicationtechnologies, and in particular, to a measurement method of anon-connected state user-side device, a measurement method of anon-connected state user-side device and a user-side device.

BACKGROUND

With the continuous development of communication technology, in order tomeet the requirements of single user peak rate and system capacityimprovement, the direct solution may be to increase the systemtransmission bandwidth. To this end, a technology that can increase thesystem transmission bandwidth is proposed, that is, carrier aggregationtechnology.

The carrier aggregation technology is a technology in which a user-sidedevice connects and communicates through multiple cells and a network,where the multiple cells may include a primary cell (Pcell) and at leastone secondary cell (that is, cells except the primary cell), where theprimary cell is not in the deactivated state, and remains activated allthe time, and the secondary cell exists the activated state and thedeactivated state. Since there are two different states of the secondarycell, in some cases, the secondary cell needs to be quickly activated.In order to activate the secondary cell, it is needed to measure thenon-connected user-side device. Generally, when the user-side device isin the connected state, the user-side device can be notified to performthe non-connected state measurement by using a dedicated signaling, orinstruct the user-side device to perform the non-connected statemeasurement through the indication information in the system broadcastmessage.

However, the current non-connected user-side equipment does not havenon-connected measurement configuration information (especiallyinter-frequency measurement configuration). The user-side equipmentperforms the inter-frequency measurement only when it needs to triggercell reselection. In addition, if the user-side device frequentlyperforms measurements in the non-connected state, a lot of resources ofthe user-side device will be consumed, such as the power resource of theuser-side device.

SUMMARY

In a first aspect, a computer-readable storage medium storing a computerprogram is provided in the present disclosure, where the computerprogram is executed by a processor to perform:

acquiring non-connected state measurement configuration information;

performing a non-connected state measurement according to thenon-connected state measurement configuration information;

where prior to the acquiring the non-connected state measurementconfiguration information, the method further includes:

receiving non-connected state measurement indication information sent bya network-side device;

where the performing the non-connected state measurement according tothe non-connected state measurement configuration information includes:

determining that the non-connected state measurement indicationinformation instructs a user-side device to perform the non-connectedstate measurement;

performing the non-connected state measurement according to thenon-connected state measurement configuration information.

In a second aspect, a computer-readable storage medium storing acomputer program is provided in the present disclosure, where thecomputer program is executed by a processor to perform:

acquiring, non-connected state measurement preference information orcapability information;

indicating to a network-side device whether a user-side device iscapable of performing a non-connected state measurement or whether theuser-side device expects to perform a non-connected state measurement;

where the computer program is executed by a processor to perform:

indicating to the network-side device that the network-side device iscapable of performing the non-connected state measurement or theuser-side device expects to perform the non-connected state measurement;

receiving non-connected state measurement indication information sent bythe network-side device;

acquiring non-connected state measurement configuration informationafter receiving the non-connected state measurement indicationinformation;

determining that the non-connected state measurement indicationinformation instructs the user-side device to perform the non-connectedstate measurement; and

performing the non-connected state measurement according to thenon-connected state measurement configuration information.

According to the present disclosure, the non-connected state measurementis performed based on the non-connected state measurement configurationinformation. Therefore, based on the non-connected state measurementconfiguration information, the user-side device may help thenetwork-side device to select a suitable user-side device to perform thenon-connected state measurement, thereby achieving the measurement ofthe non-connected state user-side device. In addition, the non-connectedstate measurement configuration information may include inter-frequencymeasurement configuration information, thereby achieving aninter-frequency measurement and saving resources of the user-side deviceduring the measurement.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to illustrate the technical solution of the embodiments of thepresent disclosure more clearly, the drawings used in the description ofthe embodiments of the present disclosure will be briefly describedbelow. Obviously, the drawings in the following description are merelysome embodiments of the present disclosure. For those of ordinary skillin the art, other drawings may be obtained based on these drawingswithout creative work.

FIG. 1 is an embodiment of a measurement method of a non-connecteduser-side device of the present disclosure;

FIG. 2 is a schematic structural diagram of a communication network ofthe present disclosure;

FIG. 3 is another embodiment of a measurement method of a non-connecteduser-side device of the present disclosure;

FIG. 4 is another embodiment of a measurement method of a non-connecteduser-side device of the present disclosure;

FIG. 5 is another embodiment of a measurement method of a non-connecteduser-side device of the present disclosure;

FIG. 6 is another embodiment of a measurement method of a non-connecteduser-side device of the present disclosure;

FIG. 7 is another embodiment of a measurement method of a non-connecteduser-side device of the present disclosure;

FIG. 8 is another embodiment of a measurement method of a non-connecteduser-side device of the present disclosure;

FIG. 9 is another embodiment of a measurement method of a non-connecteduser-side device according to the present disclosure;

FIG. 10 is another embodiment of a measurement method of a non-connecteduser-side device of the present disclosure;

FIG. 11 is an embodiment of a measurement device of a non-connecteduser-side device of the present disclosure;

FIG. 12 is another embodiment of a measurement device of a non-connecteduser-side device of the present disclosure; and

FIG. 13 is an embodiment of a user-side device of the presentdisclosure.

DETAILED DESCRIPTION

A measurement method of a non-connected state user-side device, ameasurement method of a non-connected state user-side device and auser-side device are provided in the embodiments of the presentdisclosure.

In order to enable those skilled in the art to better understand thetechnical solutions in the present disclosure, the technical solutionsin the embodiments of the present disclosure will be described clearlyand completely in conjunction with the drawings in the embodiments ofthe present disclosure. Obviously, the described embodiments are only apart of the embodiments of the present disclosure, but not all theembodiments. Based on the embodiments in the present disclosure, allother embodiments obtained by those of ordinary skill in the art withoutcreative work shall fall within the scope of the present disclosure.

The technical solution of the present disclosure can be applied tovarious communication systems, for example: Global System of Mobile(GSM) communication, Code Division Multiple Access (CDMA) system,Wideband Code Division Multiple Access (WCDMA), General Packet RadioService (GPRS), Long Term Evolution (LTE), etc.

User equipment (UE), also known as Mobile Terminal) access terminal,subscriber unit, user station, mobile station, mobile station, remotestation, remote terminal, mobile device, user terminal, Terminal,wireless communication device, user agent or user device. The accessterminal can be a cellular phone, a cordless phone, a Session InitiationProtocol (SIP) phone, a Wireless Local Loop (WLL) station, a PersonalDigital Assistant (PDA), or a wireless communication function handhelddevices, computing devices or other processing devices connected towireless modems, in-vehicle devices, wearable devices, terminal devicesin future 5G networks or terminals in future evolved Public Land MobileNetwork (PLMN) networks device.

The network-side device may be a device for communicating with a mobiledevice, and the network-side device may be a Base Transceiver Station(BTS) in Global System of Mobile communication (GSM) or Code DivisionMultiple Access (CDMA), or NodeB (NB) base station in WCDMA, or eNB oreNodeB (Evolutional Node B, in Long Term Evolution) or access point, orvehicle-mounted device, wearable device, network side device in thefuture 5G network or network side device in the future evolved PLMNnetwork.

The system to which the present disclosure is applicable may be aFrequency Division Duplex (FDD) system, a Time Division Duplex (TDD)system, or a system in which FDD and TDD are combined in duplex mode,but the present disclosure is not limited herein.

Embodiment 1

As shown in FIG. 1, a measurement method of a non-connected user-sidedevice is provided in an embodiment of the present disclosure. Thismethod can be applied to the measurement of a non-connected user-sidedevice. The measurement of the non-connected user-side device may be ameasurement that needs to be performed by the user-side device when itis in the non-connected state. The measurement of the non-connecteduser-side device may be set according to different measurement purposes,for example, the purpose of the measurement of the non-connecteduser-side device is to quickly activate the secondary cell (SCell).Correspondingly, the measurement item may be the measurement of thesignal quality of the reference signal at different frequencies (notonly the frequency of the current cell, but also the frequencies ofother cells, etc.). The purpose of the measurement and the measurementitems may be set according to the actual situation, which is not limitedin the embodiments of the present disclosure. The execution subject ofthe method may be a user-side device, where the user-side device may bea terminal device, the terminal device may be a mobile terminal devicesuch as a mobile phone, a tablet computer or a wearable device, and theterminal device may also be a terminal such as a personal computerdevice. The method may specifically include the following steps:

S102: acquiring, by the user-side device, non-connected statemeasurement configuration information.

In the communication network, the user-side device may be in two states,one is connected state, and the other is non-connected state, where thenon-connected state may also include an idle state and an inactivestate. When the user-side device is in the connected state, theuser-side device may establish a communication connection with thenetwork-side device. At this time, the user-side device may sendinformation to the network-side device, and the network-side device mayalso send information to the user-side device. When the user-side deviceis in a non-connected state, the communication connection between theuser-side device and the network-side device is disconnected, and atthis time, the user-side device is in an idle state. The network-sidedevice may be a wireless device that transmits information to theuser-side device in a certain radio coverage area. The network-sidedevice may include one device, such as a base station, or thenetwork-side device may also include multiple devices. For example, inaddition to the base station, the network-side device may also include akey control node MME and/or a serving gateway device.

In the implementation, with the continuous development of communicationtechnology, in order to meet the requirements of single user peak rateand system capacity improvement, the direct solution may be to increasethe system transmission bandwidth. To this end, a technology that canincrease the system transmission bandwidth is proposed. It is thecarrier aggregation technology. The carrier aggregation technology is atechnology in which a user-side device connects and communicates throughmultiple cells and a network, where multiple cells may include a primarycell (Pcell) and at least one secondary cell (that is, multiple cellsexcept the primary cell), where the primary cell does not have thedeactivated state and remains activated all the time, and the secondarycell has the activated state and the deactivated state. Since thesecondary cell has two different states, in some cases, it is necessaryto quickly activate the secondary cell. In order to activate thesecondary cell, it is necessary to measure the non-connected user-sidedevice. According to the measurement method of the non-connecteduser-side device in the embodiments of the present disclosure, it isable to achieve the measuring of the non-connected user-side device. Fordetails, reference may be made to the following description.

The processing of acquiring the non-connected measurement configurationinformation by the user-side device may be that the user-side deviceacquires the non-connected measurement configuration information when itis in the connected state, or the user-side device acquires thenon-connected measurement configuration information when it is in thenon-connected state. In order to better explain the specific processingprocedure of the embodiment of the present disclosure, in thisembodiment, a specific processing method is used to obtain thenon-connected state measurement configuration information. For details,reference may be made to the following description.

In order to select an appropriate user-side device for the measurementof the non-connected user-side device, the user-side device may bepreselected as the device for performing the non-connected statemeasurement, and the user-side device may actively instruct itself to bethe user-side device for the non-connected state measurement. At thistime, the user-side device may set the non-connected measurementconfiguration information according to the actual situation of thecurrent communication network. The non-connected measurementconfiguration information may include the intra-frequency measurementconfiguration information, or may include the inter-frequencymeasurement configuration information. Specifically, for example, asignal quality of the reference signal of cell 1 at measurementfrequency 1, a signal quality of the reference signal of cell 3 atmeasurement frequency 1, a signal quality of the reference signal ofcell 1 at measurement frequency 2, and a signal quality of the referencesignal of cell 5 at measurement frequency, etc. After setting the abovenon-connected state measurement configuration information, the user-sidedevice may store it in a designated storage area of the user-sidedevice. When the user-side device changes switches a connected state toa non-connected state (that is, an idle state or an inactive state), theuser-side device may find from its designated storage area whether itcontains non-connected measurement configuration information. If itcontains non-connected measurement configuration information, thenon-connected state measurement configuration information can beextracted, so that the user-side device may obtain the non-connectedstate measurement configuration information. If the configurationinformation of the non-connected state measurement is not included, itis indicated that the user-side device is not a non-connected statemeasurement device, and the user-side device may not perform anyoperation.

In addition, the processing of acquiring the non-connected measurementconfiguration information by the user-side device in step S102 may beperformed in various ways, and an optional processing method is providedbelow, that is, whether the non-connected measurement is performed canbe determined in a pre-agreed manner, Specifically, it may include thefollowing: the user-side device obtains preset non-connected statemeasurement agreement information; if the non-connected statemeasurement agreement information instructs the user-side device toperform non-connected state measurement, the user-side device generatesnon-connected measurement configuration information according to thenon-connected state measurement agreement information.

S104: performing, by the user-side device, a non-connected statemeasurement according to the non-connected state measurementconfiguration information.

The non-connected state measurement may be a measurement operation thatneeds to be performed when the user-side device is in the non-connectedstate.

In an implementation, after obtaining the non-connected statemeasurement configuration information through the process of step S102,the user-side device may analyze and extract related content in thenon-connected state measurement configuration information, and based onthe related content of the non-connected state measurement configurationinformation, the user-side device perform the measurement configurationin the non-connected state for the user-side device. That is, based onthe example of step S102 above, information such as the signal qualityof the reference signal at which frequencies need to be measured iswritten into the items to be completed or to be executed by theuser-side device, for example, by measuring the signal quality of thereference signal of cell 1 at frequency 1, the signal quality of thereference signal of cell 3 at measurement frequency 1, the signalquality of the reference signal of cell 1 at measurement frequency 2,the signal quality of the reference signal of cell 5 at measurementfrequency 3, etc. The information is written into the item to becompleted or to be executed by the user-side device. After theconfiguration is completed, the user-side device may performnon-connected state measurement one by one according to the items to becompleted or to be executed, and obtain corresponding measurementresults.

As shown in FIG. 2, when the user-side device changes from anon-connected state to a connected state, the user-side device may sendthe current measurement result to the network-side device usingindication information that can be used. After the network-side devicereceives the indication information, a notification message forreporting the measurement result may be sent to the user-side device,and after receiving the notification message, the user-side device maysend the measurement result to the network-side device. After receivingthe measurement result, the network-side device may use the measurementresult to configure the secondary cell and activate the secondary cell.If the secondary cell is successfully activated, the user-side devicemay use the secondary cell to send and receive data with thenetwork-side device.

It should be noted that not all user-side devices need to perform thenon-connected state measurement after acquiring the configurationinformation of the non-connected state. In actual applications, theuser-side device can determine whether to perform the non-connectedstate measurement according to the current actual situation. Inconnection state measurement, if the user-side device determines that itcannot perform non-connection state measurement, it may send anotification message to the network side device to refuse to perform thenon-connection state measurement.

According to the measurement method of the non-connected user-sidedevice in the embodiments of the present disclosure, the non-connectedstate measurement is performed based on the non-connected statemeasurement configuration information. Therefore, based on thenon-connected state measurement configuration information, the user-sidedevice may help the network-side device to select a suitable user-sidedevice to perform the non-connected state measurement, thereby achievingthe measurement of the non-connected state user-side device. Inaddition, the non-connected state measurement configuration informationmay include inter-frequency measurement configuration information,thereby achieving an inter-frequency measurement and saving resources ofthe user-side device during the measurement.

The above first embodiment (that is, the specific processing proceduresof the above steps S102 and S104) is not limited to one of theachievable methods provided above, and the non-connected statemeasurement can also be implemented in various ways. The followingprovides 6 optional processing methods. For details, reference may bemade to the details in Embodiment 2, Embodiment 3, Embodiment 4,Embodiment 5, Embodiment 6, Embodiment 7 and Embodiment 8 respectively.

Embodiment 2

As shown in FIG. 3, a measurement method for a non-connected user-sidedevice is provided in an embodiment of the present disclosure. Themethod can be applied to a process of measuring a non-connecteduser-side device. The measurement of the non-connected user-side devicemay be a measurement that needs to be performed by the user-side devicewhen it is in the non-connected state. The measurement of thenon-connected user-side device may be set according to differentmeasurement purposes, for example, the purpose of the measurement of thenon-connected user-side device is to quickly activate the SCell.Correspondingly, the measurement item can be the measurement of thesignal quality of the reference signal at different frequencies (notonly the frequency of the current cell, but also the frequencies ofother cells, etc.). The purpose of the measurement and the measurementitems may be set according to the actual situation, which is not limitedin the embodiments of the present disclosure. The execution subject ofthe method may be a user-side device, where the user-side device may bea terminal device, the terminal device may be a mobile terminal devicesuch as a mobile phone, a tablet computer or a wearable device, and theterminal device may also be a terminal such as a personal computerdevice. The network-side device mentioned in the embodiments of thepresent disclosure may be a wireless device that transmits informationwith a user-side device in a certain radio coverage area. Thenetwork-side device may include a device, such as a base station, thenetwork-side device. It may also include multiple devices. For example,the network-side device may include a key control node MME and/or aserving gateway device in addition to the base station. The method mayspecifically include the following steps:

S302: receiving, by the user-side device, non-connected statemeasurement indication information sent by a network-side device, wherethe non-connected state measurement indication information includes thenon-connected state measurement configuration information.

The non-connected state measurement indication information may beinformation for indicating whether the user-side device performs thenon-connected state measurement. If the non-connected state measurementindication information includes information instructing the user-sidedevice to perform the non-connected state measurement, the non-connectedstate measurement indication information may include the non-connectedstate measurement configuration information. If the non-connected statemeasurement indication information does not include the informationinstructing the user-side device to perform the non-connected statemeasurement, the non-connected state measurement indication informationdoes not include the non-connected state measurement configurationinformation.

In the implementation, when the user-side device is in a connectedstate, at this time, the user-side device and the network-side devicecan perform data interaction through the communication network, and thenetwork-side device may select the appropriate user-side device from theuser-side devices having a communication connection with the deviceaccording to the actual situation of the current communication network,for example, select the user-side device that is in the connected stateand has high data processing capability. After the selection iscompleted, the network-side device may generate the non-connected statemeasurement indication information, and may send the non-connected statemeasurement indication information to the corresponding user-side devicethrough the communication network. In practical applications, thenetwork-side device may send the non-connected state measurementindication information to the user-side device in various ways. Thefollowing provides various optional processing methods, which mayspecifically include: the non-connected state measurement indicationinformation, It is sent to the user-side device through broadcast orproprietary signaling such as Radio Resource Control (RRC), MAC ControlElement (MAC CE) or Physical Downlink Control Channel (PDCCH), forexample , System Information Block 5 (SIB5) can carry the abovenon-connected state measurement indication information, and then thenetwork side device may send the SIB5 carrying the non-connected statemeasurement indication information to the corresponding user-side deviceby broadcasting. The user-side device may receive the non-connectedstate measurement indication information sent by the network sidedevice.

When the user-side device changes from the connected state to thenon-connected state, step S304 and step S306 described below may beperformed.

S304: acquiring, by the user-side device, non-connected statemeasurement configuration information.

The content of the step S304 is the same as the content of the step S102in the embodiment 1, and the specific processing of the step S304 can bereferred to the related content of the step S102, which will not berepeated here.

S306: determining, by the user-side device, that the non-connected statemeasurement indication information instructs the user-side device toperform the non-connected state measurement; performing, by theuser-side device, the non-connected state measurement according to thenon-connected state measurement configuration information.

In the implementation, the user-side device may specifically determinewhether to perform the non-connected state measurement according to theindication information provided in the non-connected state measurementindication information. If the above-mentioned indication informationdoes not exist in the user-side device, the user-side device may notneed to perform the non-connected state measurement. If thenon-connected state measurement indication information instructs theuser-side device to perform the non-connected state measurement, theuser-side device may extract the non-connected state measurementconfiguration information from the non-connected state measurementindication information through the above step S304, and the user-sidedevice may perform the non-connected state measurement based on theextracted non-connected state measurement configuration information, andobtain the corresponding measurement result. The network side device mayquickly activate the secondary cell based on the measurement result. Forthe corresponding processing procedure, reference may be made to therelevant content of step S104 in Embodiment 1 above, which is notrepeated herein.

In addition, considering that the communication quality or availablebandwidth of the communication network is different at differentmoments, in order to make the measurement results more efficient, avalid time may be set for the above-mentioned non-connected statemeasurement indication information, then the specific processing of stepS306 may be implemented in the following manner: when the non-connectedstate measurement indication information instructs the user-side deviceto perform the non-connected state measurement, and the duration fromthe receiving time of the non-connected state measurement indicationinformation to the current time is within a predetermined durationrange, the user-side device performs the non-connected measurement basedon the non-connected measurement configuration information.

The predetermined duration range may be set according to the actualsituation, for example, the predetermined time range is 0 to 10 minutesor 0 to 5 minutes.

In the implementation, if the non-connected state measurement indicationinformation instructs the user-side device to perform the non-connectedstate measurement, the user-side device may calculate the elapsed timefrom the receiving time of the non-connected state measurementindication information to the current time, and then the obtainedduration is compared with the predetermined duration range. If theobtained duration is not within the predetermined duration range, it isindicated that the non-connected state measurement indicationinformation is invalid. At this time, the user-side device may not needto perform the non-connected state measurement. If the obtained durationis within a predetermined duration, it is indicated that thenon-connected state measurement indication information is valid. At thistime, the user-side device may perform the non-connected statemeasurement. For the specific processing procedure of performing thenon-connected state measurement, reference may be made to the steps inEmbodiment 1 above. The relevant content of S104 will not be repeatedhere.

It should be noted that not all user-side devices that receive thenon-connected state measurement indication information for performingnon-connected state measurement require or must perform non-connectedstate measurement. In actual applications, the user-side device can bebased on the current location. The actual situation determines whetherto perform the non-connected state measurement. If the user-side devicedetermines that it cannot perform the non-connected state measurement,it may send a notification message to the network side device to refuseto perform the non-connected state measurement.

According to the measurement method of the non-connected user-sidedevice in the embodiments of the present disclosure, the non-connectedstate measurement is performed based on the non-connected statemeasurement configuration information. Therefore, based on thenon-connected state measurement configuration information, the user-sidedevice may help the network-side device to select a suitable user-sidedevice to perform the non-connected state measurement, thereby achievingthe measurement of the non-connected state user-side device. Inaddition, the non-connected state measurement configuration informationmay include inter-frequency measurement configuration information,thereby achieving an inter-frequency measurement and saving resources ofthe user-side device during the measurement.

Embodiment 3

As shown in FIG. 4, a measurement method of a non-connected user-sidedevice is provided in an embodiment of the present disclosure provides.The method can be applied to the measurement of a non-connecteduser-side device. The measurement of the non-connected user-side deviceis a measurement that needs to be performed by the user-side device whenit is in the non-connected state. The measurement of the non-connecteduser-side device can be set according to different measurement purposes,for example, the purpose of the measurement of the non-connecteduser-side device is to quickly activate the SCell. Correspondingly, themeasurement item can be the measurement of the signal quality of thereference signal at different frequencies (not only the frequency of thecurrent cell, but also the frequencies of other cells, etc.). Thepurpose of the measurement and the measurement items can be setaccording to the actual situation, which is not limited in theembodiments of the present disclosure. The execution subject of themethod may be a user-side device, where the user-side device may be aterminal device, the terminal device may be a mobile terminal devicesuch as a mobile phone, a tablet computer or a wearable device, and theterminal device may also be a terminal such as a personal computerdevice. The method may specifically include the following steps:

S402: receiving, by the user-side device, non-connected statemeasurement indication information sent by a network-side device.

The content of the step S402 is the same as the content of the step S302in the second embodiment, and the specific processing of the step S402may be referred to the related content of the step S302, which will notbe repeated here.

S404: acquiring, by the user-side device, non-connected statemeasurement configuration information.

The content of the step S404 is the same as the content of the step S102in the first embodiment, and the specific processing of the step S404may be referred to the related content of the step S102, which will notbe repeated here.

The time required for the user-side device to enter the non-connectedstate from the connected state may reflect the data processingperformance of the user-side device to a certain extent. Therefore, theselecting conditions of the user-side device for non-connected statemeasurement may be set accordingly.

S406: acquiring, by the user-side device, a first duration for enteringa non-connected state from a connected state, in the case that thenon-connected state measurement indication information instructs theuser-side device to perform the non-connected state measurement.

The first duration may be the duration for the user-side device to enterthe non-connected state from the connected state, e.g., 1 millisecond or1 second.

S408: performing, by the user-side device, the non-connected statemeasurement according to the non-connected state measurementconfiguration information, in the case that the first duration does notexceed a predetermined duration threshold.

The duration threshold may be set according to actual conditions, suchas 1 second or 100 milliseconds.

For the specific processing of step S408, reference may be made to therelated content of step S104, and details are not described hereinagain.

According to the measurement method of the non-connected user-sidedevice in the embodiments of the present disclosure, the non-connectedstate measurement is performed based on the non-connected statemeasurement configuration information. Therefore, based on thenon-connected state measurement configuration information, the user-sidedevice may help the network-side device to select a suitable user-sidedevice to perform the non-connected state measurement, thereby achievingthe measurement of the non-connected state user-side device. Inaddition, the non-connected state measurement configuration informationmay include inter-frequency measurement configuration information,thereby achieving an inter-frequency measurement and saving resources ofthe user-side device during the measurement.

Embodiment 4

As shown in FIG. 5, a measurement method of a non-connected user-sidedevice is provided in an embodiment of the present disclosure. Themethod can be applied to the measurement of a non-connected user-sidedevice. The measurement of the non-connected user-side device is ameasurement that needs to be performed by the user-side device when itis in the non-connected state. The measurement of the non-connecteduser-side device can be set according to different measurement purposes,for example, the purpose of the measurement of the non-connecteduser-side device is to quickly activate the SCell. Correspondingly, themeasurement item can be the measurement of the signal quality of thereference signal at different frequencies (not only the frequency of thecurrent cell, but also the frequencies of other cells, etc.). Thepurpose of the measurement and the measurement items can be setaccording to the actual situation, which is not limited in theembodiments of the present disclosure. The execution subject of themethod may be a user-side device, where the user-side device may be aterminal device, the terminal device may be a mobile terminal devicesuch as a mobile phone, a tablet computer or a wearable device, and theterminal device may also be a terminal such as a personal computerdevice. The method may specifically include the following steps:

S502: receiving, by the user-side device, non-connected statemeasurement indication information sent by a network-side device.

The content of the step S502 is the same as the content of the step S302in the second embodiment, and the specific processing of the step S502can refer to the related content of the step S302, which will not berepeated here.

S504: acquiring, by the user-side device, non-connected statemeasurement configuration information.

The content of the step S504 is the same as the content of the step S102in the first embodiment, and the specific processing of the step S504can refer to the related content of the step S102, which will not berepeated here.

The data throughput of the user-side device in the connected state mayreflect the data processing performance of the user-side device to acertain extent. Therefore, the selection conditions of the user-sidedevice for non-connected state measurement may be set accordingly.

S506: acquiring, by the user-side device, a data throughput of a last orlast N times in the connected state, in the case that the non-connectedstate measurement indication information instructs the user-side deviceto perform the non-connected state measurement.

The data throughput may be the amount of data received and sent when theuser-side device is in the connected state, such as 10 GB or 100 GB. Nis a positive integer greater than 1.

S508: performing, by the user-side device, the non-connected statemeasurement according to the non-connected state measurementconfiguration information, in the case that the data throughput of thelast or last N times in the connected state exceeds a predeterminedthroughput threshold, where N is a positive integer larger than 1.

The throughput threshold may be set according to the actual situation,such as 10 GB or 1 GB.

For the specific processing of step S508, reference may be made to therelated content of step S104, and details are not described hereinagain.

According to the measurement method of the non-connected user-sidedevice in the embodiments of the present disclosure, the non-connectedstate measurement is performed based on the non-connected statemeasurement configuration information. Therefore, based on thenon-connected state measurement configuration information, the user-sidedevice may help the network-side device to select a suitable user-sidedevice to perform the non-connected state measurement, thereby achievingthe measurement of the non-connected state user-side device. Inaddition, the non-connected state measurement configuration informationmay include inter-frequency measurement configuration information,thereby achieving an inter-frequency measurement and saving resources ofthe user-side device during the measurement.

Embodiment 5

As shown in FIG. 6, a measurement method of a non-connected user-sidedevice is provided in an embodiment of the present disclosure provides.The method can be applied to the measurement of a non-connecteduser-side device. The measurement of the non-connected user-side deviceis a measurement that needs to be performed by the user-side device whenit is in the non-connected state. The measurement of the non-connecteduser-side device can be set according to different measurement purposes,for example, the purpose of the measurement of the non-connecteduser-side device is to quickly activate the SCell. Correspondingly, themeasurement item can be the measurement of the signal quality of thereference signal at different frequencies (not only the frequency of thecurrent cell, but also the frequencies of other cells, etc.). Thepurpose of the measurement and the measurement items can be setaccording to the actual situation, which is not limited in theembodiments of the present disclosure. The execution subject of themethod may be a user-side device, where the user-side device may be aterminal device, the terminal device may be a mobile terminal devicesuch as a mobile phone, a tablet computer or a wearable device, and theterminal device may also be a terminal such as a personal computerdevice. The method may specifically include the following steps:

S602: receiving, by the user-side device, non-connected statemeasurement indication information sent by a network-side device.

The content of the step S602 is the same as the content of the step S302in the second embodiment, and the specific processing of the step S602can refer to the related content of the step S302, which will not berepeated here.

S604: acquiring, by the user-side device, non-connected statemeasurement configuration information.

The content of the step S604 is the same as the content of the step S102in the first embodiment, and the specific processing of the step S604can be referred to the related content of the step S102, which will notbe repeated here.

In consideration of that whether the carrier aggregation or dualconnection DC was performed last time when the user-side device was inthe connected state, or the bandwidth part of the BWP, or multi-inputmulti-output MIMO may reflect the data processing performance of theuser-side device to a certain extent, the selecting conditions of theuser-side device for non-connected state measurement may be setaccordingly.

S606: acquiring, by the user-side device, configuration information of acarrier aggregation, or a dual connection (DC), or a bandwidth part(BWP), or a multiple input multiple output (MIMO) of a last time in theconnected state, in the case that the non-connected state measurementindication information instructs the user-side device to perform thenon-connected state measurement.

The configuration information of the carrier aggregation may beinformation indicating whether the user-side device was configured inthe form of Carrier Aggregation (CA) or DC when the user-side device wasin the connected state last time.

S608: performing, by the user-side device, the non-connected statemeasurement according to the non-connected state measurementconfiguration information, in the case that the configurationinformation indicates that carrier aggregation, or the DC, or the BWP,or the MIMO is performed in the last time in the connected state.

For the specific processing of step S608, reference may be made to therelated content of step S104, and details are not described hereinagain.

According to the measurement method of the non-connected user-sidedevice in the embodiments of the present disclosure, the non-connectedstate measurement is performed based on the non-connected statemeasurement configuration information. Therefore, based on thenon-connected state measurement configuration information, the user-sidedevice may help the network-side device to select a suitable user-sidedevice to perform the non-connected state measurement, thereby achievingthe measurement of the non-connected state user-side device. Inaddition, the non-connected state measurement configuration informationmay include inter-frequency measurement configuration information,thereby achieving an inter-frequency measurement and saving resources ofthe user-side device during the measurement.

Embodiment 6

As shown in FIG. 7, a measurement method of a non-connected user-sidedevice is provided in an embodiment of the present disclosure provides.The method can be applied to the measurement of a non-connecteduser-side device. The measurement of the non-connected user-side deviceis a measurement that needs to be performed by the user-side device whenit is in the non-connected state. The measurement of the non-connecteduser-side device can be set according to different measurement purposes,for example, the purpose of the measurement of the non-connecteduser-side device is to quickly activate the SCell. Correspondingly, themeasurement item can be the measurement of the signal quality of thereference signal at different frequencies (not only the frequency of thecurrent cell, but also the frequencies of other cells, etc.). Thepurpose of the measurement and the measurement items can be setaccording to the actual situation, which is not limited in theembodiments of the present disclosure. The execution subject of themethod may be a user-side device, where the user-side device may be aterminal device, the terminal device may be a mobile terminal devicesuch as a mobile phone, a tablet computer or a wearable device, and theterminal device may also be a terminal such as a personal computerdevice. The method may specifically include the following steps:

S702: receiving, by the user-side device, non-connected statemeasurement indication information sent by a network-side device.

The content of the step S702 is the same as the content of the step S302in the second embodiment, and the specific processing of the step S702can be referred to the related content of the step S302, which will notbe repeated here.

S704: acquiring, by the user-side device, non-connected statemeasurement configuration information.

The content of the step S704 is the same as the content of the step S102in the first embodiment, and the specific processing of the step S704can be referred to the related content of the step S102, which will notbe repeated here.

In consideration of that the signal quality of the serving cell wherethe user-side device currently camps may reflect the data processingperformance of the user-side device to a certain extent, the selectingconditions of the user-side device for non-connected state measurementmay be set accordingly.

S706: acquiring, by the user-side device, a signal quality of acurrently camped service cell, in the case that the non-connected statemeasurement indication information instructs the user-side device toperform the non-connected state measurement.

The signal quality of the serving cell is a serving cell RSRP.

S708: performing, by the user-side device, the non-connected statemeasurement according to the non-connected state measurementconfiguration information, in the case that the signal quality of thecurrently camped service cell exceeds a preset signal quality threshold.

The signal quality threshold may be set according to actual conditions,which is not limited in the embodiments of the present disclosure.

For the specific processing of step S708, reference may be made to therelated content of step S104, and details are not described hereinagain.

According to the measurement method of the non-connected user-sidedevice in the embodiments of the present disclosure, the non-connectedstate measurement is performed based on the non-connected statemeasurement configuration information. Therefore, based on thenon-connected state measurement configuration information, the user-sidedevice may help the network-side device to select a suitable user-sidedevice to perform the non-connected state measurement, thereby achievingthe measurement of the non-connected state user-side device. Inaddition, the non-connected state measurement configuration informationmay include inter-frequency measurement configuration information,thereby achieving an inter-frequency measurement and saving resources ofthe user-side device during the measurement.

Embodiment 7

As shown in FIG. 8, a measurement method of a non-connected user-sidedevice is provided in an embodiment of the present disclosure provides.The method can be applied to the measurement of a non-connecteduser-side device. The measurement of the non-connected user-side deviceis a measurement that needs to be performed by the user-side device whenit is in the non-connected state. The measurement of the non-connecteduser-side device can be set according to different measurement purposes,for example, the purpose of the measurement of the non-connecteduser-side device is to quickly activate the SCell. Correspondingly, themeasurement item can be the measurement of the signal quality of thereference signal at different frequencies (not only the frequency of thecurrent cell, but also the frequencies of other cells, etc.). Thepurpose of the measurement and the measurement items can be setaccording to the actual situation, which is not limited in theembodiments of the present disclosure. The execution subject of themethod may be a user-side device, where the user-side device may be aterminal device, the terminal device may be a mobile terminal devicesuch as a mobile phone, a tablet computer or a wearable device, and theterminal device may also be a terminal such as a personal computerdevice. The method may specifically include the following steps:

S802: receiving, by the user-side device, non-connected statemeasurement indication information sent by a network-side device.

The content of the step S802 is the same as the content of the step S302in the second embodiment. For the specific processing of the step S802,reference may be made to the related content of the step S302, whichwill not be repeated here.

S804: acquiring, by the user-side device, a group ID to which theuser-side device belongs.

The group ID may be information used to mark user-side devices that needto be measured in a non-connected state, such as the packet name ornumber.

In implementation, when the user-side device is in the connected state,the network-side device may send or broadcast the relevant group ID ofthe user-side device for non-connected state measurement to theuser-side device through SIB5 or PDCCH. After receiving the group ID,the user-side device may calculate the group ID to which the user-sidedevice belongs based on a preset rule or algorithm, and then may comparethe calculated group ID with the received group ID. If the group ID isincluded in the received group ID, the processes from step S806 to stepS808 described below can be performed. If the calculated group ID is notincluded in the received group ID, it is not necessary to performnon-connected state measurement.

It should be noted that the acquisition of the group ID to which theuser-side device belongs may be obtained based on a preset rule oralgorithm, or may be obtained in the following manner, that is, theuser-side device acquires the group ID which is allocated by thenetwork-side device for the user-side device.

In the implementation, the network-side device may calculate a group IDfor the user-side device that needs to perform non-connected statemeasurement through a preset rule or algorithm, and then may send thegroup ID to the corresponding user-side device through broadcasting orsignaling such as RRC, MAC CE or PDCCH, etc.

The group ID may be obtained by taking the modulus of the InternationalMobile Subscriber Identity (IMSI) or resume ID of the user-side device.

S806: acquiring, by the user-side device, the non-connected statemeasurement configuration information corresponding to the group ID.

In the implementation, different group IDs may correspond to differentnon-connected measurement configuration information. When the user-sidedevice obtains the group ID to which the user-side device belongs, thecorresponding non-connected measurement configuration may be determinedby the obtained group ID information.

S808: performing, by the user-side device, the non-connected statemeasurement according to the non-connected state measurementconfiguration information, in the case that the non-connected statemeasurement indication information instructs the user-side device toperform the non-connected state measurement.

For the specific processing of step S808, reference may be made to therelated content of step S104, and details are not described hereinagain.

According to the measurement method of the non-connected user-sidedevice in the embodiments of the present disclosure, the non-connectedstate measurement is performed based on the non-connected statemeasurement configuration information. Therefore, based on thenon-connected state measurement configuration information, the user-sidedevice may help the network-side device to select a suitable user-sidedevice to perform the non-connected state measurement, thereby achievingthe measurement of the non-connected state user-side device. Inaddition, the non-connected state measurement configuration informationmay include inter-frequency measurement configuration information,thereby achieving an inter-frequency measurement and saving resources ofthe user-side device during the measurement.

Embodiment 8

As shown in FIG. 9, a measurement method of a non-connected user-sidedevice is provided in an embodiment of the present disclosure provides.The method can be applied to the measurement of a non-connecteduser-side device. The measurement of the non-connected user-side deviceis a measurement that needs to be performed by the user-side device whenit is in the non-connected state. The measurement of the non-connecteduser-side device can be set according to different measurement purposes,for example, the purpose of the measurement of the non-connecteduser-side device is to quickly activate the SCell. Correspondingly, themeasurement item can be the measurement of the signal quality of thereference signal at different frequencies (not only the frequency of thecurrent cell, but also the frequencies of other cells, etc.). Thepurpose of the measurement and the measurement items can be setaccording to the actual situation, which is not limited in theembodiments of the present disclosure. The execution subject of themethod may be a user-side device, where the user-side device may be aterminal device, the terminal device may be a mobile terminal devicesuch as a mobile phone, a tablet computer or a wearable device, and theterminal device may also be a terminal such as a personal computerdevice. The method may specifically include the following steps:

S902: acquiring, by the user-side device, non-connected statemeasurement preference information or capability information.

The non-connected state measurement preference information may be usedto indicate whether the user-side device has the ability to or prefersto perform non-connected state measurement, and the capabilityinformation may have the ability to perform non-connected statemeasurement.

In the implementation, the user-side device may acquire its ownparameter data related to the non-connected state measurement, and maydetermine whether the user-side device has the capability to perform thenon-connected state measurement based on the parameter data, or anoption of whether to perform the non-connected state measurement is setin each user-side device, and the user or related technical personnelmay set the above options according to the actual situation, so that theuser-side device may obtain the non-connected state measurementpreference information or capability information.

S904: indicating to a network-side device, by the user-side device,whether the user-side device is capable of performing a non-connectedstate measurement or whether the user-side device expects to perform anon-connected state measurement.

If the user-side device indicates to the network-side device that theuser-side device is capable of performing non-connected statemeasurement or expects to perform non-connected state measurement, theuser-side device performs non-connected state measurement according tothe non-connected state measurement configuration information, and thespecific processing may refer to the relevant content of the above stepS104, which will not be repeated here.

According to the measurement method of the non-connected user-sidedevice in the embodiments of the present disclosure, the non-connectedstate measurement is performed based on the non-connected statemeasurement configuration information. Therefore, based on thenon-connected state measurement configuration information, the user-sidedevice may help the network-side device to select a suitable user-sidedevice to perform the non-connected state measurement, thereby achievingthe measurement of the non-connected state user-side device. Inaddition, the non-connected state measurement configuration informationmay include inter-frequency measurement configuration information,thereby achieving an inter-frequency measurement and saving resources ofthe user-side device during the measurement.

Embodiment 9

As shown in FIG. 10, a measurement method of a non-connected user-sidedevice is provided in an embodiment of the present disclosure provides.The method can be applied to the measurement of a non-connecteduser-side device. The measurement of the non-connected user-side deviceis a measurement that needs to be performed by the user-side device whenit is in the non-connected state. The measurement of the non-connecteduser-side device can be set according to different measurement purposes,for example, the purpose of the measurement of the non-connecteduser-side device is to quickly activate the SCell. Correspondingly, themeasurement item can be the measurement of the signal quality of thereference signal at different frequencies (not only the frequency of thecurrent cell, but also the frequencies of other cells, etc.). Thepurpose of the measurement and the measurement items can be setaccording to the actual situation, which is not limited in theembodiments of the present disclosure. The execution subject of themethod may be a user-side device, where the user-side device may be aterminal device, the terminal device may be a mobile terminal devicesuch as a mobile phone, a tablet computer or a wearable device, and theterminal device may also be a terminal such as a personal computerdevice. The method may specifically include the following steps:

S1002: indicating to the network-side device, by the user-side device,that the network-side device is capable of performing the non-connectedstate measurement or the user-side device expects to perform thenon-connected state measurement.

In the implementation, the user-side device may acquire its ownparameter data related to the non-connected state measurement, and maydetermine whether the user-side device has the capability to perform thenon-connected state measurement based on the parameter data, or anoption of whether to perform the non-connected state measurement is setin each user-side device, and the user or related technical personnelmay set the above options according to the actual situation. Afterobtaining the non-connected state measurement preference information,the user-side device may send the non-connected state measurementpreference information to the network side device. The network-sidedevice may determine whether it is necessary to send the non-connectedstate measurement configuration information to the user-side devicethrough the non-connected state measurement preference information.

It should be noted that the process of sending by the user-side devicethe non-connected state measurement preference information to thenetwork-side device is actively performed by the user-side device, andin practical applications, the network-side device may also trigger theuser-side device to perform the above step S1002. The process thereofmay specifically include the following: the user-side device receives areporting request for non-connected state measurement preferenceinformation sent by the network side device; the user-side device sendsthe non-connected state measurement preference information correspondingto the reporting request to the network side device.

S1004: the user-side device receiving the non-connected statemeasurement indication information sent by the network side device, andthen acquiring the non-connected state measurement configurationinformation.

If the non-connected state measurement indication information instructsthe user-side device to perform non-connected state measurement, thenon-connected state measurement indication information may carry thenon-connected state measurement configuration information, or, if thenon-connected state measurement indication information indicates theuser-side device to perform the non-connected state measurement, theuser-side device may obtain the non-connected state measurementconfiguration information through other ways, for example, through theabove-mentioned RRC, MAC CE, or PDCCH.

S1006: performing, by the user-side device, the non-connected statemeasurement according to the non-connected state measurementconfiguration information.

For specific processing of step S1006, reference may be made to therelated content of step S104, and details are not described hereinagain.

S1008: detecting, by the user-side device, whether the non-connectedstate measurement preference information changes, during thenon-connected state measurement.

In implementation, the user-side device may be set with a detectionperiod for detecting the above-mentioned non-connected state measurementpreference information, such as 30 seconds or 1 minute. Whenever thedetection period is reached, the non-connected state measurementpreference information of the user-side device may be obtained, and thenthe acquired non-connected state measurement preference information maybe compared with the non-connected state measurement preferenceinformation of the user-side device acquired in the previous detectionperiod. If the two preference information are the same, it is determinedthat the non-connected state measurement preference information of theuser-side device does not change. In this case, the processing of stepS1010 described below may not be required. If the two preferenceinformation are different, it is determined that the non-connected statemeasurement preference information of the user-side device has changed.At this time, the process of step S910 described below may be continued.

S1010: stopping, by the user-side device, the non-connected statemeasurement and releasing, by the user-side device, a resourcecorresponding to the non-connected state measurement configurationinformation, in the case that it is detected that the non-connectedstate measurement preference information changes.

According to the measurement method of the non-connected user-sidedevice in the embodiments of the present disclosure, the non-connectedstate measurement is performed based on the non-connected statemeasurement configuration information. Therefore, based on thenon-connected state measurement configuration information, the user-sidedevice may help the network-side device to select a suitable user-sidedevice to perform the non-connected state measurement, thereby achievingthe measurement of the non-connected state user-side device. Inaddition, the non-connected state measurement configuration informationmay include inter-frequency measurement configuration information,thereby achieving an inter-frequency measurement and saving resources ofthe user-side device during the measurement.

Embodiment 10

The above is the measurement method of the non-connected user-sidedevice provided in the embodiment of the present disclosure. Based onthe same idea, a measurement apparatus of the non-connected user-sidedevice is further provided in some embodiments of the presentdisclosure, as shown in FIG. 11. The apparatus includes: a configurationinformation acquiring module 1101 and a measuring module 1102.

The configuration information acquiring module 1101 is configured toacquire non-connected state measurement configuration information;

The measuring module 1102 is configured to perform a non-connected statemeasurement according to the non-connected state measurementconfiguration information.

In some embodiments of the present disclosure, the apparatus furtherincludes:

a receiving module, configured to receive non-connected statemeasurement indication information sent by a network-side device, wherethe non-connected state measurement indication information includes thenon-connected state measurement configuration information;

the measuring module 1102 is configured to: determine that thenon-connected state measurement indication information instructs theuser-side device to perform the non-connected state measurement; performthe non-connected state measurement according to the non-connected statemeasurement configuration information.

In some embodiments of the present disclosure, the measuring module 1102is configured to perform the non-connected state measurement accordingto the non-connected state measurement configuration information, in thecase that the non-connected state measurement indication informationinstructs the user-side device to perform the non-connected statemeasurement and a duration from a receiving time of the non-connectedstate measurement indication information to a current time is within apredetermined range.

In some embodiments of the present disclosure, the measuring module 1102includes:

a duration acquiring unit, configured to acquire a first duration forentering a non-connected state from a connected state, in the case thatthe non-connected state measurement indication information instructs theuser-side device to perform the non-connected state measurement;

a first measuring unit, configured to perform the non-connected statemeasurement according to the non-connected state measurementconfiguration information, in the case that the first duration does notexceed a predetermined duration threshold.

In some embodiments of the present disclosure, the measuring module 1102includes:

a throughput acquiring unit, configured to acquire a data throughput ofa last or last N times in the connected state, in the case that thenon-connected state measurement indication information instructs theuser-side device to perform the non-connected state measurement;

a second measuring unit, configured to perform the non-connected statemeasurement according to the non-connected state measurementconfiguration information, in the case that the data throughput of thelast or last N times in the connected state exceeds a predeterminedthroughput threshold, where N is a positive integer larger than 1.

In some embodiments of the present disclosure, the measuring module 1102includes:

a carrier aggregation configuration acquiring unit, configured toacquire configuration information of a carrier aggregation, or a dualconnection (DC), or a bandwidth part (BWP), or a multiple input multipleoutput (MIMO) of a last time in the connected state, in the case thatthe non-connected state measurement indication information instructs theuser-side device to perform the non-connected state measurement;

a third measuring unit, configured to perform the non-connected statemeasurement according to the non-connected state measurementconfiguration information, in the case that the configurationinformation indicates that carrier aggregation, or the DC, or the BWP,or the MIMO is performed in the last time in the connected state.

In some embodiments of the present disclosure, the measuring module 1102includes:

a signal quality acquiring unit, configured to acquire a signal qualityof a currently camped service cell, in the case that the non-connectedstate measurement indication information instructs the user-side deviceto perform the non-connected state measurement;

a fourth measuring unit, configured to perform the non-connected statemeasurement according to the non-connected state measurementconfiguration information, in the case that the signal quality of thecurrently camped service cell exceeds a preset signal quality threshold.

In some embodiments of the present disclosure, the configurationinformation acquiring module 1101 includes:

a group ID acquiring unit, configured to acquire a group ID to which theuser-side device belongs;

a configuration information acquiring unit, configured to acquire thenon-connected state measurement configuration information correspondingto the group ID.

In some embodiments of the present disclosure, the group ID acquiringunit is configured to acquire a group ID allocated by the network devicefor the user-side device.

In some embodiments of the present disclosure, the group ID acquiringunit is configured to acquire the group ID obtained by taking a modulusof an International Mobile Subscriber Identity (IMSI) or a resume ID ofthe user-side device.

In some embodiments of the present disclosure, the configurationinformation acquiring module 1101 includes:

an agreement information acquiring unit, configured to acquire presetnon-connected state measurement agreement information;

a configuration information generating unit, configured to generate thenon-connected state measurement configuration information according tothe non-connected state measurement agreement information, in the casethat the non-connected state measurement agreement information instructsthe user-side device to perform the non-connected state measurement.

According to the measurement apparatus of the non-connected user-sidedevice in the embodiments of the present disclosure, the non-connectedstate measurement is performed based on the non-connected statemeasurement configuration information. Therefore, based on thenon-connected state measurement configuration information, the user-sidedevice may help the network-side device to select a suitable user-sidedevice to perform the non-connected state measurement, thereby achievingthe measurement of the non-connected state user-side device. Inaddition, the non-connected state measurement configuration informationmay include inter-frequency measurement configuration information,thereby achieving an inter-frequency measurement and saving resources ofthe user-side device during the measurement.

Embodiment 11

The above is the measurement method of the non-connected user-sidedevice provided by the embodiment of the present disclosure. Based onthe same idea, a measurement apparatus of the non-connected user-sidedevice is further provided in the embodiment of the present disclosure,as shown in FIG. 12. The dev apparatus includes: a preference acquiringmodule 1201 and an indicating module 1202.

The preference acquiring module 1201 is configured to acquirenon-connected state measurement preference information or capabilityinformation.

The indicating module 1202 is configured to indicate to a network-sidedevice whether the user-side device is capable of performing anon-connected state measurement or whether the user-side device expectsto perform a non-connected state measurement.

In some embodiments of the present disclosure, the indicating module1202 is configured to indicate to the network-side device that thenetwork-side device is capable of performing the non-connected statemeasurement or the user-side device expects to perform the non-connectedstate measurement.

The apparatus further includes:

an indication information receiving module, configured to receivenon-connected state measurement indication information sent by thenetwork-side device, where the non-connected state measurementindication information includes the non-connected state measurementconfiguration information;

a configuration information acquiring module, configured to determinethat the non-connected state measurement indication informationinstructs the user-side device to perform the non-connected statemeasurement; and performing the non-connected state measurementaccording to the non-connected state measurement configurationinformation.

The apparatus further includes:

a reporting request receiving module, configured to receive a reportingrequest of the non-connected state measurement preference information orcapability information sent by the network device;

a reporting request sending module, configured to send the non-connectedstate measurement preference information or capability informationcorresponding to the reporting request to the network-side device.

In some embodiments of the present disclosure, the preference sendingmodule is configured to receive the reporting request of thenon-connected state measurement preference information sent by thenetwork device and send the non-connected state measurement preferenceinformation corresponding to the reporting request to the network-sidedevice

In some embodiments of the present disclosure, the apparatus furtherincludes:

a detecting module, configured to detect whether the non-connected statemeasurement preference information changes during the non-connectedstate measurement;

a stopping measurement module, configured to stop the non-connectedstate measurement and release a resource corresponding to thenon-connected state measurement configuration information, in the casethat it is detected that the non-connected state measurement preferenceinformation changes.

According to the measurement apparatus of the non-connected user-sidedevice in the embodiments of the present disclosure, the non-connectedstate measurement is performed based on the non-connected statemeasurement configuration information. Therefore, based on thenon-connected state measurement configuration information, the user-sidedevice may help the network-side device to select a suitable user-sidedevice to perform the non-connected state measurement, thereby achievingthe measurement of the non-connected state user-side device. Inaddition, the non-connected state measurement configuration informationmay include inter-frequency measurement configuration information,thereby achieving an inter-frequency measurement and saving resources ofthe user-side device during the measurement.

Embodiment 12

FIG. 13 is a block diagram of a mobile terminal according to anotherembodiment of the present disclosure. The mobile terminal 1300 shown inFIG. 13 includes: at least one processor 1301, memory 1302, at least onenetwork interface 1304, and user interface 1303. The various componentsin the mobile terminal 1300 are coupled together through a bus system1305. It can be understood that the bus system 1305 is used to implementconnection and communication between these components. In addition tothe data bus, the bus system 1305 also includes a power bus, a controlbus, and a status signal bus. However, for clarity, various buses aremarked as the bus system 1305 in FIG. 13.

The user interface 1303 may include a display, a keyboard, or a pointingdevice (for example, a mouse, a trackball, a touch pad, or a touchscreen, etc.).

It can be understood that the memory 1302 in the embodiment of thepresent disclosure may be a volatile memory or a nonvolatile memory, ormay include both volatile and nonvolatile memory. Among them, thenon-volatile memory can be read-only memory (ROM), programmableread-only memory (PROM), erasable programmable read-only memory (EPROM),electrically erasable and removable Program read-only memory(Electrically EPROM, EEPROM) or flash memory. The volatile memory may bea random access memory (RAM), which is used as an external cache. By wayof example but not limitation, many forms of RAM are available, such asstatic random access memory (SRAM), dynamic random access memory (DRAM),synchronous dynamic random access memory (SDRAM), Double data ratesynchronous dynamic random access memory (DDRSDRAM), enhancedsynchronous dynamic random access memory (Enhanced SDRAM, ESDRAM),synchronous connection dynamic random access memory (SLDRAM) and directmemory bus random access Memory (Direct Rambus RAM, DRRAM). The memory1302 of the system and method described in the embodiments of thepresent disclosure is intended to include, but is not limited to, theseand any other suitable types of memory.

In some embodiments, the memory 1302 stores the following elements,executable modules or data structures, or their subsets, or theirextended sets: operating system 13021 and application programs 13022.

Among them, the operating system 13021 includes various system programs,such as a framework layer, a core library layer, a driver layer, etc.,for implementing various basic services and processing hardware-basedtasks. The application program 13022 includes various applicationprograms, such as a media player, a browser, etc., for implementingvarious application services. The program for implementing the method ofthe embodiment of the present disclosure may be included in theapplication program 13022.

In the embodiment of the present disclosure, the mobile terminal 1300further includes: a computer program stored on the memory 1309 andexecutable on the processor 1310. When the computer program is executedby the processor 1301, the following steps are implemented: acquiringnon-connected state measurement configuration information; performing anon-connected state measurement according to the non-connected statemeasurement configuration information.

The method disclosed in the foregoing embodiment of the presentdisclosure may be applied to the processor 1301 or implemented by theprocessor 1301. The processor 1301 may be an integrated circuit chipwith signal processing capabilities. In the implementation process, eachstep of the above method may be completed by an integrated logic circuitof hardware in the processor 1301 or an instruction in the form ofsoftware. The aforementioned processor 1301 may be a general-purposeprocessor, a digital signal processor (DSP), an application specificintegrated circuit (ASIC), an existing programmable gate array (FPGA) orother programmable logic devices, discrete gates Or transistor logicdevices, discrete hardware components. The disclosed methods, steps, andlogical block diagrams in the embodiments of the present disclosure maybe implemented or executed. The general-purpose processor may be amicroprocessor or the processor may be any conventional processor or thelike. The steps of the method disclosed in conjunction with theembodiments of the present disclosure may be directly embodied andexecuted by a hardware decoding processor, or may be executed andcompleted by a combination of hardware and software modules in thedecoding processor. The software module may be located in acomputer-readable storage medium that is mature in the art, such asrandom access memory, flash memory, read-only memory, programmableread-only memory, or electrically erasable programmable memory, andregisters. The computer-readable storage medium is located in the memory1302, and the processor 1301 reads the information in the memory 1302and completes the steps of the above method in combination with itshardware. Specifically, a computer program is stored on thecomputer-readable storage medium, and when the computer program isexecuted by the processor 1301, each step of the embodiment of themeasurement method of the non-connected user-side device described aboveis implemented.

It can be understood that the embodiments described in the embodimentsof the present disclosure may be implemented by hardware, software,firmware, middleware, microcode, or a combination thereof. For hardwareimplementation, the processing unit can be implemented in one or moreapplication specific integrated circuits (ASIC), digital signalprocessor (DSP), digital signal processing device (DSPD), programmablelogic device (PLD), Field programmable gate array (FPGA),general-purpose processor, controller, microcontroller, microprocessor,other electronic units for performing the functions described in thepresent disclosure, or a combination thereof.

For software implementation, the technology described in the embodimentsof the present disclosure may be implemented through modules (e.g.,processes, functions, etc.) that perform the functions described in theembodiments of the present disclosure. The software codes can be storedin the memory and executed by the processor. The memory may beimplemented in the processor or external to the processor.

Optionally, when the computer program is executed by the processor 1301to perform:

prior to the acquiring, by the user-side device, the non-connected statemeasurement configuration information, the method further includes:

receiving non-connected state measurement indication information sent bya network-side device, where the non-connected state measurementindication information includes the non-connected state measurementconfiguration information;

where the performing by the user-side device the non-connected statemeasurement according to the non-connected state measurementconfiguration information includes:

determining that the non-connected state measurement indicationinformation instructs the user-side device to perform the non-connectedstate measurement;

performing the non-connected state measurement according to thenon-connected state measurement configuration information.

Optionally, the performing the non-connected state measurement accordingto the non-connected state measurement configuration information in thecase that the non-connected state measurement indication informationinstructs the user-side device to perform the non-connected statemeasurement includes:

performing the non-connected state measurement according to thenon-connected state measurement configuration information, in the casethat the non-connected state measurement indication informationinstructs the user-side device to perform the non-connected statemeasurement and a duration from a receiving time of the non-connectedstate measurement indication information to a current time is within apredetermined range.

Optionally, the performing the non-connected state measurement accordingto the non-connected state measurement configuration informationincludes:

acquiring a first duration for entering a non-connected state from aconnected state, in the case that the non-connected state measurementindication information instructs the user-side device to perform thenon-connected state measurement;

performing the non-connected state measurement according to thenon-connected state measurement configuration information, in the casethat the first duration does not exceed a predetermined durationthreshold.

Optionally, the performing the non-connected state measurement accordingto the non-connected state measurement configuration informationincludes:

acquiring a data throughput of a last or last N times in the connectedstate, in the case that the non-connected state measurement indicationinformation instructs the user-side device to perform the non-connectedstate measurement;

performing the non-connected state measurement according to thenon-connected state measurement configuration information, in the casethat the data throughput of the last or last N times in the connectedstate exceeds a predetermined throughput threshold, where N is apositive integer larger than 1.

Optionally, the performing the non-connected state measurement accordingto the non-connected state measurement configuration informationincludes:

acquiring configuration information of a carrier aggregation, or a dualconnection (DC), or a bandwidth part (BWP), or a multiple input multipleoutput (MIMO) of a last time in the connected state, in the case thatthe non-connected state measurement indication information instructs theuser-side device to perform the non-connected state measurement;

performing, by the user-side device, the non-connected state measurementaccording to the non-connected state measurement configurationinformation, in the case that the configuration information indicatesthat carrier aggregation, or the DC, or the BWP, or the MIMO isperformed in the last time in the connected state.

Optionally, the performing the non-connected state measurement accordingto the non-connected state measurement configuration informationincludes:

acquiring a signal quality of a currently camped service cell, in thecase that the non-connected state measurement indication informationinstructs the user-side device to perform the non-connected statemeasurement;

performing the non-connected state measurement according to thenon-connected state measurement configuration information, in the casethat the signal quality of the currently camped service cell exceeds apreset signal quality threshold.

Optionally, the acquiring the non-connected state measurementconfiguration information includes:

acquiring a group ID to which the user-side device belongs;

acquiring the non-connected state measurement configuration informationcorresponding to the group ID.

Optionally, the group ID is allocated by a network side device; or thegroup ID is obtained by taking a modulus of an International MobileSubscriber Identity (IMSI) or a resume ID of the user-side device.

Optionally, the acquiring by the user-side device the non-connectedstate measurement configuration information includes:

acquiring preset non-connected state measurement agreement information;

generating the non-connected state measurement configuration informationaccording to the non-connected state measurement agreement information,in the case that the non-connected state measurement agreementinformation instructs the user-side device to perform the non-connectedstate measurement.

Optionally, the computer program is executed by the processor 1301 toperform:

acquiring non-connected state measurement preference information orcapability information;

indicating to a network-side device whether the user-side device iscapable of performing a non-connected state measurement or whether theuser-side device expects to perform a non-connected state measurement.

Optionally, the method further includes:

indicating to the network-side device that the network-side device iscapable of performing the non-connected state measurement or theuser-side device expects to perform the non-connected state measurement;

receiving non-connected state measurement indication information sent bythe network-side device, where the non-connected state measurementindication information includes the non-connected state measurementconfiguration information;

determining that the non-connected state measurement indicationinformation instructs the user-side device to perform the non-connectedstate measurement; and

performing the non-connected state measurement according to thenon-connected state measurement configuration information.

Optionally, the sending the non-connected state measurement preferenceinformation or capability information to the network side deviceincludes:

receiving a reporting request of the non-connected state measurementpreference information or capability information sent by the networkdevice;

sending the non-connected state measurement preference information orcapability information corresponding to the reporting request to thenetwork-side device.

Optionally, the method further includes:

detecting whether the non-connected state measurement preferenceinformation changes, during the non-connected state measurement;

stopping the non-connected state measurement and releasing a resourcecorresponding to the non-connected state measurement configurationinformation, in the case that it is detected that the non-connectedstate measurement preference information changes.

The mobile terminal 1300 can implement various processes implemented bythe mobile terminal in the foregoing embodiments. To avoid repetition,details are not described here.

According to the user-side device in the embodiments of the presentdisclosure, the non-connected state measurement is performed based onthe non-connected state measurement configuration information.Therefore, based on the non-connected state measurement configurationinformation, the user-side device may help the network-side device toselect a suitable user-side device to perform the non-connected statemeasurement, thereby achieving the measurement of the non-connectedstate user-side device. In addition, the non-connected state measurementconfiguration information may include inter-frequency measurementconfiguration information, thereby achieving an inter-frequencymeasurement and saving resources of the user-side device during themeasurement.

Embodiment 13

The above is the user-side device provided by the embodiment of thepresent disclosure. Based on the same idea, the embodiment of thepresent disclosure also provides a computer-readable storage medium.

The computer-readable storage medium stores one or more programs, andwhen the one or more programs is executed by a user-side deviceincluding a plurality of application programs according to theprocessing procedure shown in FIG. 1, the user-side device performs:

prior to the acquiring, by the user-side device, the non-connected statemeasurement configuration information, the method further includes:

receiving non-connected state measurement indication information sent bya network-side device, where the non-connected state measurementindication information includes the non-connected state measurementconfiguration information;

where the performing by the user-side device the non-connected statemeasurement according to the non-connected state measurementconfiguration information includes:

determining that the non-connected state measurement indicationinformation instructs the user-side device to perform the non-connectedstate measurement;

performing the non-connected state measurement according to thenon-connected state measurement configuration information.

Optionally, the performing the non-connected state measurement accordingto the non-connected state measurement configuration information in thecase that the non-connected state measurement indication informationinstructs the user-side device to perform the non-connected statemeasurement includes:

performing the non-connected state measurement according to thenon-connected state measurement configuration information, in the casethat the non-connected state measurement indication informationinstructs the user-side device to perform the non-connected statemeasurement and a duration from a receiving time of the non-connectedstate measurement indication information to a current time is within apredetermined range.

Optionally, the performing the non-connected state measurement accordingto the non-connected state measurement configuration informationincludes:

acquiring a first duration for entering a non-connected state from aconnected state, in the case that the non-connected state measurementindication information instructs the user-side device to perform thenon-connected state measurement;

performing the non-connected state measurement according to thenon-connected state measurement configuration information, in the casethat the first duration does not exceed a predetermined durationthreshold.

Optionally, the performing the non-connected state measurement accordingto the non-connected state measurement configuration informationincludes:

acquiring a data throughput of a last or last N times in the connectedstate, in the case that the non-connected state measurement indicationinformation instructs the user-side device to perform the non-connectedstate measurement;

performing the non-connected state measurement according to thenon-connected state measurement configuration information, in the casethat the data throughput of the last or last N times in the connectedstate exceeds a predetermined throughput threshold, where N is apositive integer larger than 1.

Optionally, the performing the non-connected state measurement accordingto the non-connected state measurement configuration informationincludes:

acquiring configuration information of a carrier aggregation, or a dualconnection (DC), or a bandwidth part (BWP), or a multiple input multipleoutput (MIMO) of a last time in the connected state, in the case thatthe non-connected state measurement indication information instructs theuser-side device to perform the non-connected state measurement;

performing, by the user-side device, the non-connected state measurementaccording to the non-connected state measurement configurationinformation, in the case that the configuration information indicatesthat carrier aggregation, or the DC, or the BWP, or the MIMO isperformed in the last time in the connected state.

Optionally, the performing the non-connected state measurement accordingto the non-connected state measurement configuration informationincludes:

acquiring a signal quality of a currently camped service cell, in thecase that the non-connected state measurement indication informationinstructs the user-side device to perform the non-connected statemeasurement;

performing the non-connected state measurement according to thenon-connected state measurement configuration information, in the casethat the signal quality of the currently camped service cell exceeds apreset signal quality threshold.

Optionally, the acquiring the non-connected state measurementconfiguration information includes:

acquiring a group ID to which the user-side device belongs;

acquiring the non-connected state measurement configuration informationcorresponding to the group ID.

Optionally, the group ID is allocated by a network side device; or thegroup ID is obtained by taking a modulus of an International MobileSubscriber Identity (IMSI) or a resume ID of the user-side device.

Optionally, the acquiring by the user-side device the non-connectedstate measurement configuration information includes:

acquiring preset non-connected state measurement agreement information;

generating the non-connected state measurement configuration informationaccording to the non-connected state measurement agreement information,in the case that the non-connected state measurement agreementinformation instructs the user-side device to perform the non-connectedstate measurement.

The computer-readable storage medium stores one or more programs, andwhen the one or more programs is executed by a user-side deviceincluding a plurality of application programs according to theprocessing procedure shown in FIG. 1, the user-side device performs:

acquiring non-connected state measurement preference information orcapability information;

indicating to a network-side device whether the user-side device iscapable of performing a non-connected state measurement or whether theuser-side device expects to perform a non-connected state measurement.

Optionally, the method further includes:

indicating to the network-side device that the network-side device iscapable of performing the non-connected state measurement or theuser-side device expects to perform the non-connected state measurement;

receiving non-connected state measurement indication information sent bythe network-side device, where the non-connected state measurementindication information includes the non-connected state measurementconfiguration information;

determining that the non-connected state measurement indicationinformation instructs the user-side device to perform the non-connectedstate measurement; and

performing the non-connected state measurement according to thenon-connected state measurement configuration information.

Optionally, the sending the non-connected state measurement preferenceinformation or capability information to the network side deviceincludes:

receiving a reporting request of the non-connected state measurementpreference information or capability information sent by the networkdevice;

sending the non-connected state measurement preference information orcapability information corresponding to the reporting request to thenetwork-side device.

Optionally, the method further includes:

detecting whether the non-connected state measurement preferenceinformation changes, during the non-connected state measurement;

stopping the non-connected state measurement and releasing a resourcecorresponding to the non-connected state measurement configurationinformation, in the case that it is detected that the non-connectedstate measurement preference information changes.

According to the computer-readable storage medium in the embodiments ofthe present disclosure, the non-connected state measurement is performedbased on the non-connected state measurement configuration information.Therefore, based on the non-connected state measurement configurationinformation, the user-side device may help the network-side device toselect a suitable user-side device to perform the non-connected statemeasurement, thereby achieving the measurement of the non-connectedstate user-side device. In addition, the non-connected state measurementconfiguration information may include inter-frequency measurementconfiguration information, thereby achieving an inter-frequencymeasurement and saving resources of the user-side device during themeasurement.

In the 1990s, the improvement of a technology can be clearlydistinguished from the improvement of hardware (for example, theimprovement of the circuit structure of diodes, transistors, switches,etc.) or the improvement of software (the improvement of the processflow). However, with the development of technology, the improvement ofmany methods and processes can be regarded as a direct improvement ofthe hardware circuit structure. Designers almost get the correspondinghardware circuit structure by programming the improved method flow intothe hardware circuit. Therefore, it cannot be said that the improvementof a method flow cannot be realized by hardware physical modules. Forexample, a programmable logic device (PLD) (such as a field programmablegate array (FPGA)) is such an integrated circuit whose logic function isdetermined by the user programming the device. Designers can programthemselves to “integrate” a digital system on a PLD without having toask chip manufacturers to design and make dedicated integrated circuitchips. Moreover, nowadays, instead of manually making integrated circuitchips, this kind of programming is also mostly implemented with “logiccompiler” software, which is similar to the software compiler used inprogram development and writing, but before compilation The originalcode of the code must also be written in a specific programminglanguage, which is called the hardware description language (HDL), andHDL is not only one, but there are many, such as Advanced BooleanExpression Language (ABEL), Altera Hardware Description Language (AHDL),Confluence, Cornell University Programming Language (CUPL), HDCal, JavaHardware Description Language (JHDL), Lava, Lola, MyHDL, PALASM, RubyHardware Description Language (RHDL), etc., the most commonly used atpresent is Very-High-Speed Integrated Circuit Hardware DescriptionLanguage (VHDL) and Verilog. Those skilled in the art should alsounderstand that it is easy to obtain the hardware circuit thatimplements the logic method flow by only slightly programming the methodflow in the above hardware description languages and programming it intothe integrated circuit.

The controller may be implemented in any suitable manner, for example,the controller may take the form of a microprocessor or processor and acomputer-readable medium storing computer-readable program code (such assoftware or firmware) executable by the (micro) processor , Logic gates,switches, application specific integrated circuits (ASICs), programmablelogic controllers and embedded microcontrollers. Examples of controllersinclude but are not limited to the following microcontrollers: ARC 625D,Atmel AT91SAM, Microchip PIC18F26K20 and Silicone Labs C8051F320, thememory controller can also be implemented as part of the control logicof the memory. Those skilled in the art also know that, in addition toimplementing the controller in a pure computer-readable program codemanner, it is entirely possible to make the controller into logic gates,switches, application specific integrated circuits, programmable logiccontrollers and The same function is realized in the form of amicrocontroller or the like. Therefore, such a controller can beregarded as a hardware component, and the devices included therein forrealizing various functions can also be regarded as a structure withinthe hardware component. Or even, the device for realizing variousfunctions can be regarded as both a software module of an implementationmethod and a structure within a hardware component.

The system, device, module or unit explained in the above embodimentsmay be specifically implemented by a computer chip or entity, or by aproduct having a certain function. A typical implementation device is acomputer. Specifically, the computer may be, for example, a personalcomputer, a laptop computer, a cellular phone, a camera phone, a smartphone, a personal digital assistant, a media player, a navigationdevice, an email device, a game console, a tablet computer, a wearabledevice, or any combination of these devices.

For the convenience of description, when describing the above device,the functions are divided into various units and described separately.Of course, when implementing the present disclosure, the functions ofeach unit may be implemented in one or more software and/or hardware.

Those skilled in the art should understand that the embodiments of thepresent disclosure may be provided as methods, systems, or computerprogram products. Therefore, the present disclosure may take the form ofan entirely hardware embodiment, an entirely software embodiment, or anembodiment combining software and hardware. Moreover, the presentdisclosure may take the form of a computer program product implementedon one or more computer usable storage media (including but not limitedto disk storage, CD-ROM, optical storage, etc.) containing computerusable program code.

The present disclosure is described with reference to flowcharts and/orblock diagrams of methods, devices (systems), and computer programproducts according to embodiments of the application. It should beunderstood that each flow and/or block in the flowchart and/or blockdiagram and a combination of the flow and/or block in the flowchartand/or block diagram may be implemented by computer programinstructions. These computer program instructions can be provided to theprocessor of a general-purpose computer, special-purpose computer,embedded processing machine, or other programmable data processingdevice to produce a machine that enables the generation of instructionsexecuted by the processor of the computer or other programmable dataprocessing device A device for realizing the functions specified in oneblock or multiple blocks of one flow or multiple blocks of a flowchart.

These computer program instructions may also be stored in a computerreadable memory that can guide a computer or other programmable dataprocessing device to work in a specific manner, so that the instructionsstored in the computer readable memory produce an article of manufactureincluding an instruction device, the instructions The device implementsthe functions specified in one block or multiple blocks of the flowchartone flow or multiple flows and/or block diagrams.

These computer program instructions can also be loaded onto a computeror other programmable data processing device, so that a series ofoperating steps are performed on the computer or other programmabledevice to produce computer-implemented processing, which is executed onthe computer or other programmable device The instructions provide stepsfor implementing the functions specified in one block or multiple blocksof the flowchart one flow or multiple flows and/or block diagrams.

In a typical configuration, the computing device includes one or moreprocessors (CPUs), input/output interfaces, network interfaces, andmemory.

The memory may include non-permanent memory, random access memory (RAM)and/or non-volatile memory in a computer-readable medium, such as readonly memory (ROM) or flash memory (flash RAM). Memory is an example ofcomputer-readable media.

Computer-readable media, including permanent and non-permanent,removable and non-removable media, can store information by any methodor technology. The information may be computer readable instructions,data structures, modules of programs, or other data. Examples ofcomputer storage media include, but are not limited to, phase changememory (PRAM), static random access memory (SRAM), dynamic random accessmemory (DRAM), other types of random access memory (RAM), read-onlymemory (ROM), electrically erasable programmable read-only memory(EEPROM), flash memory or other memory technologies, read-only compactdisc read-only memory (CD-ROM), digital versatile disc (DVD) or otheroptical storage, Magnetic tape cassettes, magnetic tape magnetic diskstorage or other magnetic storage devices or any other non-transmissionmedia can be used to store information that can be accessed by computingdevices. As defined herein, computer-readable media does not includetemporary computer-readable media (transitory media), such as modulateddata signals and carrier waves.

It should also be noted that the terms “include”, “including” or anyother variant thereof are intended to cover non-exclusive inclusion, sothat a process, method, commodity or device that includes a series ofelements not only includes those elements, but also includes otherelements not explicitly listed, or include elements inherent to suchprocesses, methods, goods, or equipment. Without more restrictions, theelement defined by the sentence “include one . . . ” does not excludethat there are other identical elements in the process, method,commodity, or equipment that includes the element.

Those skilled in the art should understand that the embodiments of thepresent disclosure may be provided as methods, systems, or computerprogram products. Therefore, the present disclosure may take the form ofan entirely hardware embodiment, an entirely software embodiment, or anembodiment combining software and hardware. Moreover, the presentdisclosure may take the form of a computer program product implementedon one or more computer usable storage media (including but not limitedto disk storage, CD-ROM, optical storage, etc.) containing computerusable program code.

The present disclosure can be described in the general context ofcomputer-executable instructions executed by a computer, such as programmodules. Generally, program modules include routines, programs, objects,components, data structures, etc. that perform specific tasks orimplement specific abstract data types. The present disclosure can alsobe practiced in distributed computing environments in which remoteprocessing devices connected through a communication network performtasks. In a distributed computing environment, program modules may belocated in local and remote computer storage media including storagedevices.

The embodiments in this specification are described in a progressivemanner. The same or similar parts between the embodiments can bereferred to each other, and each embodiment focuses on the differencesfrom other embodiments. In particular, for the system embodiment, sinceit is basically similar to the method embodiment, the description isrelatively simple, and the relevant part can be referred to thedescription of the method embodiment.

The above are only some embodiments of the present disclosure, and isnot intended to limit the present disclosure. For those skilled in theart, the present disclosure may have various modifications and changes.Any modification, equivalent replacement, improvement, etc. made withinthe principle of the present disclosure shall be included in the scopeof the claims of the present disclosure.

What is claimed is:
 1. A computer-readable storage medium storing acomputer program, wherein the computer program is executed by aprocessor to perform: acquiring non-connected state measurementconfiguration information; performing a non-connected state measurementaccording to the non-connected state measurement configurationinformation; wherein prior to the acquiring the non-connected statemeasurement configuration information, the method further comprises:receiving non-connected state measurement indication information sent bya network-side device; wherein the performing the non-connected statemeasurement according to the non-connected state measurementconfiguration information comprises: determining that the non-connectedstate measurement indication information instructs a user-side device toperform the non-connected state measurement; performing thenon-connected state measurement according to the non-connected statemeasurement configuration information.
 2. The computer-readable storagemedium according to claim 1, wherein the performing the non-connectedstate measurement according to the non-connected state measurementconfiguration information in the case that the non-connected statemeasurement indication information instructs the user-side device toperform the non-connected state measurement comprises: performing thenon-connected state measurement according to the non-connected statemeasurement configuration information, in the case that thenon-connected state measurement indication information instructs theuser-side device to perform the non-connected state measurement and aduration from a receiving time of the non-connected state measurementindication information to a current time is within a predeterminedrange.
 3. The computer-readable storage medium according to claim 1,wherein the performing the non-connected state measurement according tothe non-connected state measurement configuration information comprises:acquiring a first duration for entering a non-connected state from aconnected state, in the case that the non-connected state measurementindication information instructs the user-side device to perform thenon-connected state measurement; performing the non-connected statemeasurement according to the non-connected state measurementconfiguration information, in the case that the first duration does notexceed a predetermined duration threshold.
 4. The computer-readablestorage medium according to claim 1, wherein the performing thenon-connected state measurement according to the non-connected statemeasurement configuration information comprises: acquiring a datathroughput of a last or last N times in the connected state, in the casethat the non-connected state measurement indication informationinstructs the user-side device to perform the non-connected statemeasurement; performing the non-connected state measurement according tothe non-connected state measurement configuration information, in thecase that the data throughput of the last or last N times in theconnected state exceeds a predetermined throughput threshold, wherein Nis a positive integer larger than
 1. 5. The computer-readable storagemedium according to claim 1, wherein the performing the non-connectedstate measurement according to the non-connected state measurementconfiguration information comprises: acquiring configuration informationof a carrier aggregation, or a dual connection (DC), or a bandwidth part(BWP), or a multiple input multiple output (MIMO) of a last time in theconnected state, in the case that the non-connected state measurementindication information instructs the user-side device to perform thenon-connected state measurement; performing the non-connected statemeasurement according to the non-connected state measurementconfiguration information, in the case that the configurationinformation indicates that carrier aggregation, or the DC, or the BWP,or the MIMO is performed in the last time in the connected state.
 6. Thecomputer-readable storage medium according to claim 1, wherein theperforming the non-connected state measurement according to thenon-connected state measurement configuration information comprises:acquiring a signal quality of a currently camped service cell, in thecase that the non-connected state measurement indication informationinstructs the user-side device to perform the non-connected statemeasurement; performing the non-connected state measurement according tothe non-connected state measurement configuration information, in thecase that the signal quality of the currently camped service cellexceeds a preset signal quality threshold.
 7. The computer-readablestorage medium according to claim 1, wherein the acquiring thenon-connected state measurement configuration information comprises:acquiring a group ID to which the user-side device belongs; acquiringthe non-connected state measurement configuration informationcorresponding to the group ID; wherein the group ID is allocated by anetwork side device; or the group ID is obtained by taking a modulus ofan International Mobile Subscriber Identity (IMSI) or a resume ID of theuser-side device.
 8. The computer-readable storage medium according toclaim 1, wherein the acquiring the non-connected state measurementconfiguration information comprises: acquiring preset non-connectedstate measurement agreement information; generating the non-connectedstate measurement configuration information according to thenon-connected state measurement agreement information, in the case thatthe non-connected state measurement agreement information instructs theuser-side device to perform the non-connected state measurement.
 9. Acomputer-readable storage medium storing a computer program, wherein thecomputer program is executed by a processor to perform: acquiring,non-connected state measurement preference information or capabilityinformation; indicating to a network-side device whether a user-sidedevice is capable of performing a non-connected state measurement orwhether the user-side device expects to perform a non-connected statemeasurement; wherein the computer program is executed by a processor toperform: indicating to the network-side device that the network-sidedevice is capable of performing the non-connected state measurement orthe user-side device expects to perform the non-connected statemeasurement; receiving non-connected state measurement indicationinformation sent by the network-side device; acquiring non-connectedstate measurement configuration information after receiving thenon-connected state measurement indication information; determining thatthe non-connected state measurement indication information instructs theuser-side device to perform the non-connected state measurement; andperforming the non-connected state measurement according to thenon-connected state measurement configuration information.
 10. Thecomputer-readable storage medium according to claim 9, wherein thesending the non-connected state measurement preference information orcapability information to the network side device comprises: receiving areporting request of the non-connected state measurement preferenceinformation or capability information sent by the network device;sending the non-connected state measurement preference information orcapability information corresponding to the reporting request to thenetwork-side device; wherein the computer program is executed by aprocessor to perform: detecting whether the non-connected statemeasurement preference information changes, during the non-connectedstate measurement; stopping the non-connected state measurement andreleasing a resource corresponding to the non-connected statemeasurement configuration information, in the case that it is detectedthat the non-connected state measurement preference information changes.